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Letters and Research Articles

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2019 [TOP]

New [TOP]

  1. Nayyar Abbas Shah, Vahid Mosallanejad, Kuei-Lin Chiu, Guo-ping Guo, Design of graphene waveguide: Effect of edge orientation and waveguide configuration,https://arxiv.org/abs/1901.00292 2019. [Link]
  2. Tenghui Wang, Zhenxing Zhang, Liang Xiang, Zhilong Jia, Peng Duan, Zhiwen Zong, Zhenhai Sun, Zhangjingzi Dong, Jianlan Wu, Yi Yin, Guoping Guo, Experimental realization of a fast controlled-Z gate via a shortcut-to-adiabaticity,https://arxiv.org/abs/1811.08096 under review 2018. [Link]
  3. Zhenxing Zhang, P. Z. Zhao, Tenghui Wang, Liang Xiang, Zhilong Jia, Peng Duan, D. M. Tong, Yi Yin, Guoping Guo, Single-shot realization of nonadiabatic holonomic gates with a superconducting Xmon qutrit, https://arxiv.org/abs/1811.06252 under review 2018. [Link]
  4. Zhen Li, Chao Luo, Tengteng Lu, Jun Xu, Weicheng Kong, Guoping Guo, Cryogenic Modeling of Standard CMOS for Quantum Computing, "https://arxiv.org/abs/1811.11497 under review 2018. [Link]
  5. Tengteng Lu, Zhen Li, Chao Luo, Jun Xu, Weicheng Kong, Guoping Guo, Characterization and Modeling of 0.18μm CMOS Technology at sub-Kelvin Temperature,https://arxiv.org/abs/1811.12632 under review 2018. [Link]

2018 [TOP]

  1. Xin Zhang, Hai-Ou Li, Gang Cao, Ming Xiao , Guang-Can Guo, Guo-Ping Guo Semiconductor quantum computation, National Science Review accepted, 2018. [Link]
  2. Zhenxing Zhang, Tenghui Wang, Liang Xiang, Zhilong Jia, Peng Duan, Weizhou Cai, Ze Zhan, Zhiwen Zong, Jianlan Wu, Luyan Sun and Guoping Guo Experimental demonstration of work fluctuations along a shortcut to adiabaticity with a superconducting Xmon qubit, New Journal of Physics 20, 085001, 2018. [Link]
  3. Tenghui Wang, Zhenxing Zhang, Liang Xiang, Zhilong Jia, Peng Duan, Weizhou Cai, Zhihao Gong, Zhiwen Zong, Mengmeng Wu, Jianlan Wu and Guoping Guo The experimental realization of high-fidelity 'shortcut-to-adiabaticity' quantum gates in a superconducting Xmon qubit, New Journal of Physics 20, 065003, 2018. [Link]
  4. Xinhe Wang, Dong Zhu, Xinhe Yang,Long Yuan,Haiou Li,Jiangtao Wang,Mo Chen,Guangwei Deng,Wenjie Liang,Qunqing Li,Shoushan Fan,Guoping Guo,Kaili Jiang Stressed carbon nanotube devices for high tunability, high quality factor, single mode GHz resonators, Nano Research 11, 5812, 2018. [Link]
  5. Yan Li, Shu-Xiao Li, Hai-Ou Li, Guang-Wei Deng, Gang Cao, Ming Xiao and Guo-Ping Guo, Charge noise acting on graphene double quantum dots in circuit quantum electrodynamics architecture, Chinese Physics B 27, 076105, 2018. [Link]
  6. Yan Li, Shu-Xiao Li, Fei Gao, Hai-Ou Li, Gang Xu, Ke Wang, He Liu, Gang Cao, Ming Xiao, Ting Wang, Jian-Jun Zhang, and Guo-Ping Guo, Measuring the complex admittance and tunneling rate of a germanium hut wire hole quantum dot, Journal of Applied Physics 123, 174305, 2018. [Link]
  7. Ke Wang, Hai-Ou Li, Ming Xiao, Gang Cao, Guo-Ping Guo, Spin manipulation in semiconductor quantum dots qubit, Chinese Physics B 27, 090308, 2018. [Link]
  8. Chao Luo, Zhen Li, TengTeng Lu, Jun Xu, GuoPing Guo, MOSFET Characterization and Modeling at Cryogenic Temperatures, Cryogenics accepted, , 2018. [Link]
  9. Hui Yang, Jin Yang, Xibiao Ren, Haiyuan Chen, Chennupati Jagadish, Guang-Can Guo, Chuanhong Jin, Xiaobin Niu, and Guo-Ping Guo, Three-leaf dart-shaped single-crystal BN formation promoted by surface oxygen, Applied Physics Letter 113, 163101, (2018). [Link]
  10. Zhao Yun Chen,Qi Zhou,Cheng Xue,Xia Yang,Guang-Can Guo,Guo-Ping Guo, 64-qubit quantum circuit simulation, Science Bulletin 63, 964, (2018). [Link]
  11. Xin Zhang, Hai-Ou Li, Ke Wang, Gang Cao, Ming Xiao, Guo-Ping Guo, Qubits based on semiconductor quantum dots, Chinese Physics B 27, 020305, (2018). [Link]
  12. Hai-Ou Li, Gang Cao, Guo-Dong Yu, Ming Xiao, Guang-Can Guo, Hong-Wen Jiang, and Guo-Ping Guo, Controlled Quantum Operations of a Semiconductor Three-Qubit System, Physics Review Applied 9, 024015, (2018). [Link]
  13. Yan Li, Shu-Xiao Li, Fei Gao, Hai-Ou Li, Gang Xu, Ke Wang, Di Liu, Gang Cao, Ming Xiao, Ting Wang, Jian-Jun Zhang, Guang-Can Guo, and Guo-Ping Guo, Coupling a Germanium Hut Wire Hole Quantum Dot to a Superconducting Microwave Resonator, Nano letter 18, 2091, (2018). [Link]
  14. Gang Luo, Zhuo-Zhi Zhang, Guang-Wei Deng, Hai-Ou Li, Gang Cao, Ming Xiao, Guang-Can Guo, Lin Tian & Guo-Ping Guo, Strong indirect coupling between graphene-based mechanical resonators via a phonon cavity, Nature Communication 9, 383, (2018). [Link]
  15. Runan Shang, Hai-Ou Li, Gang Cao, Guodong Yu, Ming Xiao, Tao Tu, Guang-Can Guo, Hongwen Jiang, A. M. Chang, and Guo-Ping Guo, Direct observation of the orbital spin Kondo effect in gallium arsenide quantum dots, Physics Review B 91, 245102, (2018). [Link]

2017 [TOP]

  1. Zhuo-Zhi Zhang, Xiang-Xiang Song, Gang Luo, Guang-Wei Deng, Vahid Mosallanejad, Takashi Taniguchi, Kenji Watanabe, Hai-Ou Li, Gang Cao, Guang-Can Guo, Franco Nori and Guo-Ping Guo Electrotunable artificial molecules based on van der Waals heterostructures, Science Advances 3, e1701699, (2017). [Link]
  2. Bao-bao Chen, Bao-chuan Wang, Gang Cao, Hai-Ou Li, Ming Xiao, Guo-ping Guo
    Enhanced readout of spin states in double quantum dot, Science Bulletin 62, 712, (2017). [Link]
  3. Bao-Chuan Wang, Bao-Bao Chen, Gang Cao, Hai-Ou Li, Ming Xiao and Guo-Ping Guo
    Coherent control and charge echo in a GaAs charge qubit, EPL 117, 6, (2017). [Link]
  4. Xin Zhang,Hai-Ou Li,Ke Wang , Gang Cao , Guo-Ping Guo
    Quantum computation based on semiconductor quantum dots, SCIENTIA SINICA Informationis 47(10), 1255, (2017). [Link]
  5. Bao-Chuan Wang, Gang Cao, Hai-Ou Li, Ming Xiao, Guang-Can Guo, Xuedong Hu, Hong-Wen Jiang, and Guo-Ping Guo
    Tunable Hybrid Qubit in a Triple Quantum Dot, Physical Review Applied 8, 064035, (2017). [Link]
  6. Gang Luo, Zhuo-Zhi Zhang, Guang-Wei Deng, Hai-ou Li, Gang Cao, Ming Xiao, Guoping Guo and Guang-Can Guo
    Coupling graphene nanomechanical motion to a single-electron transistor, Nano Scale 9, 5608, (2017). [Link]
  7. Gang Luo, Zhuo-Zhi Zhang, Hai-Ou Li, Xiang-Xiang Song, Guang-Wei Deng, Gang Cao, Ming Xiao, Guo-Ping Guo
    Quantum dot behavior in transition metal dichalcogenides nanostructures, Front. Phys. 12, 128502 (2017). [Link]
  8. Tianyi Han, Mingbo Chen, Gang Cao, HaiOu Li, Ming Xiao and GuoPing Guo
    Radio-frequency measurement in semiconductor quantum computation, SCIENCE CHINA Physics, Mechanics & Astronomy 60, 057301 (2017). [Link]
  9. Shu-Xiao Li, Yan Li, Fei Gao, Gang Xu, Hai-Ou Li, Gang Cao, Ming Xiao, Ting Wang, Jian-Jun Zhang, and Guo-Ping Guo
    Measuring hole spin states of single quantum dot in germanium hut wire, Appl. Phys. Lett. 110, 133105 (2017). [Link]
  10. Dong Zhu, Xin-He Wang, Wei-Cheng Kong, Guang-Wei Deng, Jiang-Tao Wang, Hai-Ou Li, Gang Cao, Ming Xiao, Kai-Li Jiang, Xing-Can Dai, Guang-Can Guo, Franco Nori, Guo-Ping Guo
    Coherent Phonon Rabi Oscillations with a High-Frequency Carbon Nanotube Phonon Cavity, Nano Letters 17, 915 (2017). [Link]
  11. Bao-Bao Chen, Bao-Chuan Wang, Gang Cao, Hai-Ou Li, Ming Xiao, Guang-Can Guo, Hong-Wen Jiang, Xuedong Hu and Guo-Ping Guo
    Spin blockade and coherent dynamics of high-spin states in a three-electron double quantum dot, Physics Review B 95, 035408 (2017). [Link]

2016 [TOP]

  1. Guang-Wei Deng, Dong Zhu, Xin-He Wang, Chang-Ling Zou, Jiang-Tao Wang, Hai-Ou Li, Gang Cao, Di Liu, Yan Li, Ming Xiao, Guang-Can Guo, Kai-Li Jiang, Xing-Can Dai, Guo-Ping Guo
    Strongly coupled nanotube electromechanical resonators, Nano Letters 16, 6620 (2016). [Link]
  2. Di Liu, Le Yu, Xiao Xiong, Lei Yang, Yan Li, Ming Li, Hai-Ou Li, Gang Cao, Ming Xiao, Bin Xiang, Chang-jun Min, Guang-Can Guo, Xi-Feng Ren, and Guo-Ping Guo
    Improving the luminescence enhancement of hybrid Au nanoparticle-monolayer MoS2 by focusing radially-polarized beams, Optical Express 24, 27554 (2016). [Link]
  3. Guo-Dong Yu, Hai-Ou Li, Gang Cao, Ming Xiao, Hong-wen Jiang and Guoping Guo
    Tunable capacitive coupling between two semiconductor charge qubits, NANO TECHNOLOGY 27, 324003 (2016). [Link]
  4. Bao-Chuan Wang, Gang Cao, Bao-Bao Chen, Guo-Dong Yu, Hai-Ou Li, Ming Xiao, and Guo-Ping Guo
    Photon-assited tunneling in an asymmetrically coupled triple quantum dot, Journal of Applied Physics 120, 064302 (2016). [Link]
  5. Shu-Xiao Li, Dong Zhu, Xin-He Wang, Jiang-Tao Wang, Guang-Wei Deng, Hai-Ou Li, Gang Cao, Ming Xiao, Guang-Can Guo, Kai-Li Jiang, Xing-Can Dai, and Guo-Ping Guo
    Parametric strong mode-coupling in carbon nanotube mechanical resonator, Nanoscale 8, 14809 (2016). [Link]
  6. Tian-Yi Han, Guang-Wei Deng, Da Wei, and Guo-Ping Guo
    Multiplexing Read-Out of Charge Qubits By a Superconducting Resonator, Chinese Physics Letters 33, 047301 (2016). [Link]
  7. Gang Cao, Hai-Ou Li, Guo-Dong Yu, Bao-Chuan Wang, Bao-Bao Chen, Xiang-Xiang Song, Ming Xiao, Guang-Can Guo, Hong-Wen Jiang, Xuedong Hu, and Guo-Ping Guo
    Tunable Hybrid Qubit in a GaAs Double Quantum Dot, Physics Review Letters 116, 086801 (2016). [Link]
  8. Lan-tian Feng, Ming Zhang, Zhi-Yuan Zhou, Ming Li, Xiao Xiong, Le Yu, Bao-Sen Shi, Guo-Ping Guo, Xin-Dao Dai and Xi-Feng Ren
    On-chip coherent conversion of photonic quantum entanglement between different degrees of freedom, Nature Communications 7, 11985 (2016). [Link]
  9. S.C. Shen, B.B. Chen, H.X. Xue, G.Cao, C.J.Li, X.X.Wang, Y.P. Hong, G.P. Guo, R.F. Dou C.M. Xiong
    Gate dependence of upper critical field in superconducting (110) LaAlO3/SrTiO3 interface, Scientific Reports 6, 28379 (2016). [Link]
  10. Jun-Feng Wang, Wen-Long Zhang, Jian Zhang, Jie You, Yan Li, Guo-Ping Guo, Fu-Pan Feng, Xue-Rui Song , Li-Ren Lou, Wei Zhua
    Coherence times of precise depth controlled NV centers in diamond, Nanoscale 8, 5780 (2016). [Link]

2015 [TOP]

  1. Jie You, Hai-Ou Li, Ke Wang, Gang Cao, Xiang-Xiang Song, Ming Xiao, and Guo-Ping Guo
    Suppression of low-frequency charge noise in gates-defined GaAs quantum dots, Applied Physics Letters 107, 233104 (2015). [Link]
  2. Gang Cao, Hai-Ou Li, Xiang-Xiang Song, Guo-Dong Yu, Bao-Bao Chen, Ming Xiao, and Guo-Ping Guo
    Arbitrary phase shift of a semiconductor quantum dot charge qubit on a short time scale, EPL 112, 37005 (2015). [Link]
  3. Guang-Wei Deng, Da Wei, J.R.Johansson, Miao-Lei Zhang, Shu-Xiao Li, Hai-Ou Li, Gang Cao, Ming Xiao, Tao Tu, Guang-Can Guo, Hong-Wen Jiang, Franco Nori, and Guo-Ping Guo
    Charge Number Dependence of the Dephasing Rates of a Graphene Double Quantum Dot in a Circuit QED Architecture, Physics Review Letters 115, 126804 (2015). [Link]
  4. Guang-Wei Deng, Da Wei, Shu-Xiao Li, J.R.Johansson, Wei-Cheng Kong, Hai-Ou Li, Gang Cao, Ming Xiao, Guang-Can Guo, Franco Nori, Hong-Wen Jiang, and Guo-Ping Guo
    Coupling Two Distant Double Quantum Dots with a Microwave Resonator, Nano Letters 15(10), 6620-6625 (2015). [Link]
  5. Xiang-Xiang Song, Di Liu, Vahid Mosallanejad, Jie You, Tian-Yi Han, Dian-Teng Chen, Hai-Ou Li, Gang Cao, Ming Xiao, Guang-Can Guo, and Guo-Ping Guo
    A gate defined quantum dot on the two-dimensional transition metal dichalcogenide semiconductor WSe2, Nanoscale 7, 16867 (2015). [Link]
  6. Jie You, Hai-Ou Li, Gang Cao, Guang-Wei Deng, Ming Xiao, Guo-Ping Guo
    Measuring the coherence of charge states in undoped GaAs/AlGaAs double quantum dots with photon-assisted tunneling, EPL 111, 17001 (2015). [Link]
  7. Hai-Ou Li, Gang Cao, Guo-Dong Yu, Ming Xiao, Guang-Can Guo, Hong-Wen Jiang and Guo-Ping Guo
    Conditional rotation of two strongly coupled semiconductor charge qubits, Nature Communication 6, 7681 (2015). [Link]
  8. Ru-Nan Shang, Hai-Ou Li, Gang Cao, Guo-Dong Yu, Ming Xiao, Tao Tu, Guang-Can Guo, Hong-Wen Jiang, A.M. Chang, Guo-Ping Guo
    Observation of the Kondo effect in a quadruple quantum dot, Physcial Review B 91, 245102 (2015). [Link]
  9. Wei-Cheng Kong, Guang-Wei Deng, Shu-Xiao Li, Hai-Ou Li, Gang Cao, Ming Xiao, Guang-Can Guo, Guo-Ping Guo
    Introduction of DC line structures into a superconducting microwave 3D cavity, Review of Scientific Instruments 86, 023108 (2015). [Link]
  10. Xiang-xiang Song, Hai-Ou Li, Jie You, Tian-Yi Han, Gang Cao, Tao Tu, Ming Xiao, Guang-Can Guo, Hong-Wen Jiang, Guo-Ping Guo
    Suspending Effect on Low-Frequency Charge Noise in Graphene Quantum Dot, Scientific Reports 5, 8142 (2015). [Link]
  11. Xiang-Xiang Song , Zhuo-Zhi Zhang, Jie You, Di Liu, Hai-Ou Li, Gang Cao, Ming Xiao and Guo-Ping Guo
    Temperature dependence of Coulomb oscillations in a few-layer two-dimensional WS2 quantum dot, Scientific Reports 5, 16113 (2015). [Link]
  12. Shuang Cong; Ming-Yong Gao; Gang Cao; Guang-Can Guo; Guo-Ping Guo
    Ultrafast Manipulation of a Double Quantum-Dot Charge Qubit Using Lyapunov-Based Control Method, IEEE Journal of Quantum Electronics 51, 8100108 (2015). [Link]
  13. Zhen Shen, Zhong Hao Zhou, Chang-Ling Zou, Fang-Wen Sun, Guo-Ping Guo, Chun-Hua Dong, Guang-Can Guo
    Observation of high-Q optomechanical modes in the mounted silica microspheres, Photonics research 3, 243 (2015). [Link]
  14. Yong-Jing Cai, Ming Li, Xiao Xiong, Le Yu, Xi-Feng Ren, Guo-Ping Guo, Guang-Can Guo
    Waveguide Mode Splitter Based on Multi-mode Dielectric-Loaded Surface Plasmon Polariton Waveguide, Chinese Physics Letters 32, 107305 (2015). [Link]
  15. Jun-Feng Wang, Fu-Pan Feng, Jian Zhang, Ji-Hong Chen, Zhong-Cheng Zheng, Li-Ping Guo, Wen-Long Zhang, Xue Rui Song, Guo-Ping Guo, Le-Le Fan
    High-sensitivity temperature sensing using an implanted single nitrogen-vacancy center array in diamond, Physics Review B 91, 155404 (2015). [Link]
  16. Ming Li, Chang-Ling Zou, Xi-Feng Ren, Xiao Xiong, Yong-Jing Cai, Guo-Ping Guo, Li-Min Tong, Guang Can Guo
    Transmission of Photonic Quantum Polarization Entanglement in a Nanoscale Hybrid Plasmonic Waveguide, Nano letters 15, 2380 (2015). [Link]
  17. Yu-Yuan Qin, Jun-Hao Han, Guo-Ping Guo, Yong-Ping Du, Zhao-Guo Li, You Song, Li Pi, Xue-Feng Wang, Xiang-Gang Wan, Min Han
    Enhanced quantum coherence in graphene caused by Pd cluster deposition, Applied Physics Letters 106, 023108 (2015). [Link]

2014 [TOP]

  1. Hai-Ou Li, Gang Cao, Ming Xiao, Jie You, Da Wei, Tao Tu, Guang-Can Guo, Hong-Wen Jiang and Guo-Ping Guo
    Fabrication and characterization of an undoped GaAs/AlGaAs quantum dot device, Journal of Applied Physics 116, 174504 (2014). [Link]
  2. Miao-Lei Zhang, Da Wei, Guang-Wei Deng, Shu-Xiao Li, Hai-Ou Li, Gang Cao, Tao Tu, Ming Xiao, Guang-Can Guo, Hong-Wen Jiang and Guo-Ping Guo
    Measuring the complex admittance of a nearly isolated graphene quantum dot, Applied Physics Letters 105, 073510 (2014). [Link]
  3. Ru-Nan Shang, Hai-Ou Li, Gang Cao, Guo-Dong Yu, Ming Xiao, Tao Tu, Guo-Ping Guo
    Probing Energy Spectrum of Quadruple Quantum Dots with Microwave Field, Chinese Physics Letters 31, 050302 (2014). [Link]
  4. Li Wang, Tao Tu, Guo-Ping Guo, Guang-Can Guo
    Renormalization group method for kink dynamics in a perturbed sine-Gordon equation, Modern Physics Letters B 28, 1450068 (2014). [Link]
  5. Hai-Ou Li, Ming Xiao, Gang Cao, Jie You, Guo-Ping Guo,
    Electron number dependence of spin triplet–singlet relaxation time, Physica E 56, 1 (2014). [Link]
  6. Miao-Lei Zhang, Guang-Wei Deng, Shu-Xiao Li, Hai-Ou Li, Gang Cao, Tao Tu, Ming Xiao, Guang-Can Guo, Hong-Wen Jiang, Siddiqi I., Guo-Ping Guo
    Symmetric reflection line resonator and its quality factor modulation by a two-dimensional electron gas, Applied Physics Letters 104, 083511 (2014). [Link]
  7. Li Wang, Tao Tu, Guo-Ping Guo, Guang-Can Guo
    Intrinsic and Extrinsic Decoherence for Charge Qubit Dynamics in a Double Quantum Dot, Modern Physics Letters B 28, 1450014 (2014). [Link]
  8. Li Wang, Cheng Zhou, Tao Tu, Hong-Wen Jiang, Guo-Ping Guo, Guang-Can Guo
    Quantum simulation of the Kibble-Zurek mechanism using a semiconductor electron charge qubit, Physical Review A 89, 022337 (2014). [Link]

2013 [TOP]

  1. Da Wei, Hai-Ou Li, Gang Cao, Gang Luo, Zhi-Xiong Zheng, Tao Tu, Ming Xiao, Guang-Can Guo, Hong-Wen Jiang and Guo-Ping Guo
    Tuning inter-dot tunnel coupling of an etched graphene double quantum dot by adjacent metal gates, Scientific Reports 3, 3175 (2013). [Link]
  2. Runan Shang, Hai-Ou Li, Gang Cao, Ming Xiao, Tao Tu, Hongwen Jiang, Guang-Can Guo, and Guo-Ping Guo
    Photon-assisted-tunneling in a coupled double quantum dot under high microwave excitation powers, Appl. Phys. Lett. 103, 162109 (2013). [Link]
  3. Cheng Zhou, Li Wang, Tao Tu; Tian-Yi Han, Hai-Ou Li, Guo-Ping Guo
    Charge States and Transition of Double Quantum Dot in the Few-Electron Regime , Chinese Physcis Letters 30, 050301 (2013). [Link]
  4. Qiong Ma; Tao Tu, Li Wang, Cheng Zhou; Zhi-Rong Ling, Ming Xiao; Guo-Ping Guo
    Coulomb blockade in graphene quantum dots , Mordern Physcis Letters B 27, 1350008 (2013).
  5. M. G. House, Ming Xiao, GuoPing Guo, HaiOu Li, Gang Cao, M. M. Rosenthal, HongWen Jiang
    Detection and Measurement of Spin-Dependent Dynamics in Random Telegraph Signals, Physcis Review Letters 111, 126803 (2013). [Link]
  6. Gang Cao, Hai-Ou Li, Tao Tu, Li Wang, Cheng Zhou, Ming Xiao, Guang-Can Guo, Hong Wen Jiang&Guo-Ping Guo,
    Ultrafast universal quantum control of a quantum-dot charge qubit using Landau–Zener–Stückelberg interference, Nature Communications 4, 1401 (2013). [Link]
  7. Gang Cao, Ming Xiao, Hai-Ou Li, Cheng Zhou, RuNan Shang, Tao Tu, HongWen Jiang, Guo-Ping Guo
    Back-action-driven electron spin excitation in a single quantum dot, New J. Phys 15, 023021 (2013). [Link]

2012 [TOP]

  1. Zhou Cheng, Tu Tao, Wang Li, Li Haiou, Cao Gang, Guang-Can.Guo, Guo-Ping. Guo,
    Transport through a Gate Tunable Graphene Double Quantum Dot, Chinese Physics Letter 29, 117303 (2012). [Link]
  2. Ma Qiong, Tu Tao, Wang Li, Li Haiou, Lin ZhiRong, Xiao Ming, Guo-Ping. Guo,
    Substrate Modulated Graohene Quantum Dots, Mordern Physcis Letters B 26, 1250162 (2012).
  3. Li Haiou, Yao Bing, Tu Tao, Guo-Ping. Guo,
    Quantum computation on gate-defined semiconductor quantum dots, Chinese Science Bulletin 57, 1919-1924 (2012).
  4. Cao Gang, Wang Li, Tu Tao, Li Haiou, Xiao Ming, Guo-Ping. Guo,
    Pulse Designed Coherent Dynamics of a Quantum Dot Charge Qubit, Chinese Physics Letter 29, 030306 (2012). [Link]
  5. Hai-Ou Li, Ming Xiao, Gang Cao, Cheng Zhou, RuNan Shang, Tao Tu, Guang-Can Guo, Hong-Wen Jiang, Guo-Ping Guo,
    Back-action-induced non-equilibrium effect in electron charge counting statistics, Applied Physcis Leeters 100, 092112 (2012). [Link]
  6. Lin-Jun Wang, Li Hai-Ou, Tao Tu, Gang Cao, Cheng Zhou,Xiao-Jie Hao, Zhan Su, Ming Xiao, Guo Guang-Can, Albert M. Chang, Guo-Ping Guo,
    Controllable tunnel coupling and molecular states in a graphene double quantum dot, Applied Physcis Leeters 100, 022106 (2012). [Link]

2011 [TOP]

  1. Xiao-Jie Hao, Li Hai-Ou, Tao Tu,Cheng Zhou, Gang Cao, Guo Guang-Can,Guo-Ping Guo, Wayne Y. Fung, Zhongqing Ji, Wei Lu,
    Andreev tunneling enhanced by Coulomb oscillations in superconductor-semiconductor hybrid Ge/Si nanowire devices, Physcis Review B 84, 195448 (2011). [Link]
  2. Lin-Jun Wang, Guo-Ping Guo, Da Wei, Gang Cao, Tao Tu, Ming Xiao, Guo Guang-Can, A.M.Chang,
    Gates controlled parallel-coupled double quantum dot on both single layer and bilayer graphene, Applied Physics Letters 99, 112117 (2011). [Link]
  3. Wang Lin-Jun, Cao Gang, Li Hai-Ou, Tu Tao, Zhou Cheng, Hao Xiao-Jie, Guo Guang-Can, Guo Guo-Ping,
    Ground States and Excited States in a Tunable Graphene Quantum Dot, Chinese Physics Letters 28, 067301 (2011). [Link]
  4. Zhu Zhi-Cheng, Tu Tao, Guo Guo-Ping,
    Multipartite Spin Entangled States in Quantum Dots with a Quantum Databus Based on Nano Electro-Mechanical Resonator, Chinese Physics Letters 28, 040301 (2011). [Link]

2010 [TOP]

  1. Xiao-Jie Hao, Tao Tu, Gang Cao, Cheng Zhou, Hai-Ou Li, Guang-Can Guo, Wayne Y. Fung, Zhongqing Ji, Guo-Ping Guo, Wei Lu,
    Strong and Tunable Spin−Orbit Coupling of One-Dimensional Holes in Ge/Si Core/Shell Nanowires, Nano Lett. 10(8), 2956-2960 (2010). [Link] [arXiv:1008.1882]
  2. G. P. Guo, X. J. Hao, T. Tu, Y. J. Zhao, Z. R. Lin, G Cao, H. O. Li, C. Zhou, G. C. Guo, H. W. Jiang,
    Probing Quantum Hall Pseudospin Ferromagnet by Resistively Detected NMR, Phys. Rev. B 81, 041306(R) (2010). [Link] [arXiv:0904.0917]
  3. G. P. Guo, Z. R. Lin, T. Tu, H. O. Li, C. L .Zou, J. X. Chen, Y. H. Lu, X. F. Ren, G. C. Guo,
    Quantum Bus of Betal Nanoring with Surface Plasmon Polaritons, Phys. Rev. B 82, 241401(R) (2010). [Link] [arXiv:0904.3603]
  4. L. J. Wang, G. Cao, T. Tu, H. O. Li, C. Zhou, X. J. Hao, Z. Su, H. W. Jiang, G. C. Guo,
    A Graphene Quantum Qot with a Single Electron Transistor as an Integrated Charge Sensor, Applied. Phys. Letters 97, 262113 (2010). [Link] [arXiv:1008.4868]

2009 [TOP]

  1. Cao Gang, Li Hai-Ou, Tu Tao, Zhou Cheng, Hao Xiao-Jie, Guo Guang-Can, Guo Guo-Ping,
    Electron States in Parallel Double Quantum Dots with a Tunable Inter-Dot Coupling, Chinese Physics Letters 26, 097302 (2009). [Link]
  2. Guo-Ping Guo, Zhi-Rong Lin, Xiao-Peng Li, Tao Tu, Guang-Can Guo,
    Quantum computation with graphene nanoribbon, New J. Phys. 11, 123005 (2009). [Link] [arXiv:0808.1618]
  3. Fei-Yun Zhu, Tao Tu, Lin-Jun Wang, Guang-Can Guo, Guo-Ping Guo,
    Dephasing of two electron states in a double quantum-dot system irradiated by a microwave field with a nearby Quantum Point Contact, Chinese Physics Letters 26 050301 (2009). [Link] [arXiv:0808.0550]
  4. Xiao-Jie Hao, Tao Tu, Yong-Jie Zhao, Guang-Can Guo, H.W.Jiang, Guo-Ping Guo,
    Numerical studies of quantum Hall ferromagnetism in two subband systems, J. Phys.: Condens. Matter. 21 455802 (2009). [Link] [arXiv:0807.0297]

2008 [TOP]

  1. Y.J.Zhao, T.Tu, X.J.Hao, G.C.Guo, H.W.Jiang, G.P.Guo,
    Experimental studies of scaling behavior of a quantum Hall system with a tunable Landau level mixing, Phys. Rev. B 78 , 233301 (2008). [Link] [arXiv:0807.0295]
  2. Zhi-Rong Lin, Fei-Yun Zhu, Tao Tu, Guang-Can Guo, Guo-Ping Guo,
    Generation of quantum-dot cluster states with superconducting transmission line resonator, Phys. Rev. Lett. 101 , 230501 (2008). [Link] [arXiv:0804.3187]
  3. Guo-Ping Guo, Hui Zhang, Yong Hu, Tao Tu, Guang-Can Guo,
    Dispersive Coupling Between the Superconducting Transmission Line Resonator and the Double Quantum Dots, Phys. Rev. A 78 , 020302(R) (2008). [Link] [arXiv:0802.1308]
  4. F.Y. Zhu, T.Tu, G.C.Guo, G.P.Guo,
    Spin dephasing on a quantum dot with a nearby quantum point contact, Mod. Phys. Lett. B 23, 623(2008). [Link]
  5. Guo-Ping Guo, et al,
    Observation of an in=plane magnetic field driven phase transition in a quantum Hall system with SU(4) sysmetry , Phys. Rev. B 78 , 233305 (2008). [Link] [arXiv:0709.1343]
  6. Tu T, Zhao YJ, Hao XJ, et al,
    Localization exponent for the second Landau level in the quantum hall effect, Chinese Physics Letters 25, 1083 (2008). [Link]
  7. Guo GP, Hao XJ, Tu T, et al,
    Eliminating interactions between non-neighboring qubits in the preparation of cluster states in quantum molecules, European Physical Journal B 61, 141 (2008). [Link] [arXiv:quant-ph/0703239]

2007 [TOP]

  1. Tu T, Zhao YJ, Guo GP, et al,
    Scaling behavior and variable hopping conductivity in the quantum Hall plateau transition, Physics Letters A 368, 108 (2007). [Link] [arXiv:cond-mat/0703711]
  2. Zhang H, Guo GP, Tu T, et al,
    Quantum computation and Bell-state measurements with double-dot molecules, Phys. Rev. A 76, 012335 (2007). [Link] [arXiv:quant-ph/0702230]
  3. Tu T, Hao XJ, Guo GP, et al,
    Two-time diffusion process in the porous medium , Chinese Physics Letters 24, 2293 (2007). [Link]
  4. Guo GP, Zhang H, Tu T, et al,
    One-step preparation of cluster states in quantum-dot molecules, Phys. Rev. A 75, 050301 (2007). [Link] [arXiv:quant-ph/0611247]
  5. T Tu, YJ Zhao, Guo-Ping Guo, et al,
    Form of scaling function in quantum Hall plateau transitions, Chinese Physics Letters 24, 1346 (2007). [Link]

Review Articles


Conference Proceedings

  1. Ming-Yong Gao, Shuang Cong, Long Zhen Hu, Gang Cao, Guo-Ping Guo,
    Ultrafast Manipulation of a Double Quantum Dot via Lyapunov Control Method, 24th Chinese Control Conference p8309 (2015)
  2. Yong-Jing Cai, Ming Li, Xi-Feng Ren, Chang-Ling Zou, Xiong Xiao, Hua-Lin Lei, Bi-Heng Liu, Guo-Ping Guo, Guang-Can Guo,
    High visibility on-chip quantum interference of single surface plasmons, Conference on Lasers and Electro-Optics (2015)
  3. Xi-Feng Ren, Yong-Jing Cai, Ming Li, Chang-Ling Zou, Xiong Xiao, Hua-Lin Lei, Bi-Heng Liu, Guo-Ping Guo, Guang-Can Guo,
    Propagation of quantum signal in plasmonic waveguides, Conference on Lasers and Electro-Optics (2015)

Theses

  1. Hui Zhang, Quantum information process in double quantum dots, USTC, May, 2008.
  2. Yongjie Zhao, Experimental Research of Quantum Phases and Quantum Phase Transitions in Quantum Hall System, USTC, May, 2009.
  3. Xiaojie Hao, Experimental Study of Quantum Transport Properties of Ge/Si Core/Shell Nanowire Devices, USTC, May, 2010.
  4. Zhirong Lin, Quantum Transport and Quantum Computation based on Semiconducting Nanostructure, USTC, May, 2011.
  5. Haiou Li, Single Electron Charge and Spin Measurement in GaAs Quantum Dots by Strong Back-action, USTC, May, 2012.
  6. Gang Cao, Quantum Transport in Semiconductor Double Quantum Dots, USTC, May, 2012.
  7. Cheng Zhou, Manipulate and Observe Electron States in Double Quantum Dots, USTC, May, 2013.
  8. Li Wang, Theroy and Simulation of Semiconductor Quantum Dots System, USTC, May, 2014.
  9. Runan Shang, Charge Quantum Qubit and Quantum Transport on Semiconductor Quantum Dots, USTC, May, 2014.
  10. Miaolei Zhang, Experimental Study of Quantum Transport Properties of Ge/Si Core/Shell Nanowire Devices, USTC, May, 2014.
  11. Xiangxiang Song, Quantum Dots on Two Dimensional Graphene-Like Layered Materials, USTC, Nov., 2015.
  12. Jie You, Fabrication and Quantum Transport Exploration on Novel GaAs Quantum Dots , USTC, May, 2016.
  13. Guodong Yu, Coherent Manipulation in Multiple Charge Qubits, USTC, May, 2016.
  14. Guangwei Deng, Experimental Study of Quantum Dot Hybrid System, USTC, May, 2016.

Patent

    发明 |

  1. 一种低温宽频带低噪声放大器,

    郭国平,郑智雄,李海欧,曹刚,肖明,郭光灿,
    申请时间 2014/12/4, 授权时间 2017/7/28 专利号 ZL201410735258.6. 已授权.

  2. 一种极低温下半导体量子点低噪测量系统,

    尚汝南,郭国平,李海鸥,曹刚,肖明,郭光灿,
    申请时间 2013/4/12, 授权时间 2015/5/27 专利号 ZL201310125176.5. 已授权.

  3. 一种低温定向耦合器,

    刘哲雨,郭国平,李海鸥,曹刚,肖明,郭光灿,
    申请时间 2013/5/11, 授权时间 2016/1/6 专利号 ZL201310173048.8. 已授权.

  4. GaAs/AlGaAs 半导体异质结结构栅极电控量子点的制备方法及其测量方法,

    尤杰,郭国平,李海欧,曹刚,肖明,郭光灿,
    申请时间 2014/5/27, 授权时间 2016/5/26 专利号 ZL201410229185.3. 已授权.

  5. GaAs/AlGaAs 半导体异质结结构的霍尔棒及其制作方法,

    李海欧,郭国平,尤杰,曹刚,肖明,郭光灿,
    申请时间 2014/5/27, 授权时间 2017/3/29 专利号 ZL201410231897.9. 已授权.

  6. 一种高精度偏置电压控制设备及直流稳压电源,

    郭国平,周诚,王永刚,涂涛,肖明,郭光灿 ,
    申请时间 2012/10/30, 授权时间 2014/8/6 专利号 ZL201210424402.5. 已授权.

  7. 空穴型半导体异质结霍尔棒、其制备和使用方法及用途,

    李海欧,袁龙,王柯,
    申请时间 2017/6/27, 授权时间 专利号 201710498740.6. 申请中.

  8. 空穴型半导体电控量子点器件,其制备及使用方法,

    李海欧,袁龙,王柯,
    申请时间 2017/6/27, 授权时间 专利号 201710498737.4. 申请中.

  9. CVD生长多层异质结的方法和装置,

    郭国平,杨晖,李海欧,
    申请时间 2017/6/13, 授权时间 专利号 201710440556.6. 申请中.

  10. 实用新型 |

  11. 一种化学气相沉积系统,

    郭国平,杨晖,李海欧,曹刚,肖明,郭光灿,
    申请时间 2017/3/27, 授权时间 2017/11/3 专利号 ZL201720306140.0. 已授权.

  12. 一种超导微波纳米谐振腔,

    郭国平,杨鑫鑫,贾志龙,孔伟成,段鹏,薛光明,
    申请时间 2017/3/20, 授权时间 2017/11/3 专利号 ZL201720276021.5. 已授权.

  13. 一种室温、极低温两用的宽频带低噪声放大器,

    郭国平,郑智雄,李海欧,曹刚,肖明,郭光灿,
    申请时间 2015/6/23, 授权时间 2015/10/21 专利号 ZL201520435391.X. 已授权.

  14. 一种含直流引线结构的3D微波谐振腔,

    郭国平,孔伟成,邓光伟,李舒啸,李海欧,曹刚,肖明,
    申请时间 2015/4/3, 授权时间 2015/7/22 专利号 ZL201520201982.0. 已授权.

  15. 一种低温宽频带低噪声放大器,

    郭国平,郑智雄,李海欧,曹刚,肖明,郭光灿,
    申请时间 2014/12/4, 授权时间 2015/3/25 专利号 ZL201420759238.8. 已授权.

  16. 反射式超导传输线谐振腔,

    张苗磊,郭国平,邓光伟,李舒啸,肖明,郭光灿,
    申请时间 2013/4/22, 授权时间 2013/12/11 专利号 ZL201320203425.3. 已授权.

  17. 低温低噪声放大器,

    郭国平,刘哲雨,肖明,郭光灿,
    申请时间 2013/4/22, 授权时间 2013/11/13 专利号 ZL201320202607.9. 已授权.

  18. 空穴型半导体电控量子点器件和装置,

    李海欧,袁龙,王柯,
    申请时间 2017/6/27, 授权时间 2017/12/28 专利号 ZL201720754015.6. 已授权.

  19. 一种用于CVD固态源的挥发装置,

    郭国平,杨晖,李海欧,
    申请时间 2017/4/24, 授权时间 专利号 201720434437.5. 申请中.

  20. CVD生长多层异质结的装置,

    郭国平,杨晖,李海欧,
    申请时间 2017/6/13, 授权时间 专利号 201720679431.4. 申请中.

  21. 空穴型半导体异质结霍尔棒,

    李海欧,袁龙,王柯,
    申请时间 2017/6/27, 授权时间 专利号 201720754071.X. 申请中.